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//
// Copyright (c) 2019-2024 Ruben Perez Hidalgo (rubenperez038 at gmail dot com)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#ifndef BOOST_MYSQL_IMPL_INTERNAL_PROTOCOL_IMPL_BINARY_PROTOCOL_HPP
#define BOOST_MYSQL_IMPL_INTERNAL_PROTOCOL_IMPL_BINARY_PROTOCOL_HPP
#include <boost/mysql/days.hpp>
#include <boost/mysql/field_kind.hpp>
#include <boost/mysql/field_view.hpp>
#include <boost/mysql/metadata.hpp>
#include <boost/mysql/detail/datetime.hpp>
#include <boost/mysql/impl/internal/protocol/impl/bit_deserialization.hpp>
#include <boost/mysql/impl/internal/protocol/impl/deserialization_context.hpp>
#include <boost/mysql/impl/internal/protocol/impl/protocol_types.hpp>
#include <boost/mysql/impl/internal/protocol/impl/serialization_context.hpp>
#include <array>
#include <chrono>
#include <cmath>
#include <cstdint>
namespace boost {
namespace mysql {
namespace detail {
inline deserialize_errc deserialize_binary_field(
deserialization_context& ctx,
const metadata& meta,
field_view& output
);
inline void serialize_binary_field(serialization_context& ctx, field_view input);
} // namespace detail
} // namespace mysql
} // namespace boost
//
// Implementation
//
namespace boost {
namespace mysql {
namespace detail {
// constants
namespace binc {
BOOST_INLINE_CONSTEXPR std::size_t year_sz = 2;
BOOST_INLINE_CONSTEXPR std::size_t month_sz = 1;
BOOST_INLINE_CONSTEXPR std::size_t date_day_sz = 1;
BOOST_INLINE_CONSTEXPR std::size_t time_days_sz = 4;
BOOST_INLINE_CONSTEXPR std::size_t hours_sz = 1;
BOOST_INLINE_CONSTEXPR std::size_t mins_sz = 1;
BOOST_INLINE_CONSTEXPR std::size_t secs_sz = 1;
BOOST_INLINE_CONSTEXPR std::size_t micros_sz = 4;
BOOST_INLINE_CONSTEXPR std::size_t time_sign_sz = 1;
BOOST_INLINE_CONSTEXPR std::size_t date_sz = year_sz + month_sz + date_day_sz; // does not include length
BOOST_INLINE_CONSTEXPR std::size_t datetime_d_sz = date_sz;
BOOST_INLINE_CONSTEXPR std::size_t datetime_dhms_sz = datetime_d_sz + hours_sz + mins_sz + secs_sz;
BOOST_INLINE_CONSTEXPR std::size_t datetime_dhmsu_sz = datetime_dhms_sz + micros_sz;
BOOST_INLINE_CONSTEXPR std::size_t time_dhms_sz = time_sign_sz + time_days_sz + hours_sz + mins_sz + secs_sz;
BOOST_INLINE_CONSTEXPR std::size_t time_dhmsu_sz = time_dhms_sz + micros_sz;
} // namespace binc
//
// Deserialization
//
// strings
inline deserialize_errc deserialize_binary_field_string(
deserialization_context& ctx,
field_view& output,
bool is_blob
)
{
string_lenenc deser;
auto err = deser.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
if (is_blob)
{
output = field_view(to_span(deser.value));
}
else
{
output = field_view(deser.value);
}
return deserialize_errc::ok;
}
// ints
template <class TargetType, class DeserializableType>
inline deserialize_errc deserialize_binary_field_int_impl(deserialization_context& ctx, field_view& output)
{
int_holder<DeserializableType> deser;
auto err = deser.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
output = field_view(static_cast<TargetType>(deser.value));
return deserialize_errc::ok;
}
template <class DeserializableTypeUnsigned, class DeserializableTypeSigned>
inline deserialize_errc deserialize_binary_field_int(
const metadata& meta,
deserialization_context& ctx,
field_view& output
)
{
return meta.is_unsigned()
? deserialize_binary_field_int_impl<std::uint64_t, DeserializableTypeUnsigned>(ctx, output)
: deserialize_binary_field_int_impl<std::int64_t, DeserializableTypeSigned>(ctx, output);
}
// Bits. These come as a binary value between 1 and 8 bytes,
// packed in a string
inline deserialize_errc deserialize_binary_field_bit(deserialization_context& ctx, field_view& output)
{
string_lenenc buffer;
auto err = buffer.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
return deserialize_bit(buffer.value, output);
}
// Floats
template <class T>
inline deserialize_errc deserialize_binary_field_float(deserialization_context& ctx, field_view& output)
{
// Size check
if (!ctx.enough_size(sizeof(T)))
return deserialize_errc::incomplete_message;
// Endianness conversion
T v = endian::endian_load<T, sizeof(T), endian::order::little>(ctx.first());
// Nans and infs not allowed in SQL
if (std::isnan(v) || std::isinf(v))
return deserialize_errc::protocol_value_error;
// Done
ctx.advance(sizeof(T));
output = field_view(v);
return deserialize_errc::ok;
}
// Time types
inline deserialize_errc deserialize_binary_ymd(deserialization_context& ctx, date& output)
{
using namespace boost::mysql::detail;
int2 year{};
int1 month{};
int1 day{};
// Deserialize
auto err = ctx.deserialize(year, month, day);
if (err != deserialize_errc::ok)
return err;
// Range check
if (year.value > max_year || month.value > max_month || day.value > max_day)
{
return deserialize_errc::protocol_value_error;
}
output = date(year.value, month.value, day.value);
return deserialize_errc::ok;
}
inline deserialize_errc deserialize_binary_field_date(deserialization_context& ctx, field_view& output)
{
using namespace boost::mysql::detail::binc;
// Deserialize length
int1 length;
auto err = length.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
// Check for zero dates
if (length.value < date_sz)
{
output = field_view(date());
return deserialize_errc::ok;
}
// Deserialize rest of fields
date d;
err = deserialize_binary_ymd(ctx, d);
if (err != deserialize_errc::ok)
return err;
output = field_view(d);
return deserialize_errc::ok;
}
inline deserialize_errc deserialize_binary_field_datetime(deserialization_context& ctx, field_view& output)
{
using namespace binc;
// Deserialize length
int1 length{};
auto err = length.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
// If the DATETIME does not contain some of the values below,
// they are supposed to be zero
date d{};
int1 hours{};
int1 minutes{};
int1 seconds{};
int4 micros{};
// Date part
if (length.value >= datetime_d_sz)
{
err = deserialize_binary_ymd(ctx, d);
if (err != deserialize_errc::ok)
return err;
}
// Hours, minutes, seconds
if (length.value >= datetime_dhms_sz)
{
err = ctx.deserialize(hours, minutes, seconds);
if (err != deserialize_errc::ok)
return err;
}
// Microseconds
if (length.value >= datetime_dhmsu_sz)
{
err = micros.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
}
// Validity check. deserialize_binary_ymd already does it for date
if (hours.value > max_hour || minutes.value > max_min || seconds.value > max_sec ||
micros.value > max_micro)
{
return deserialize_errc::protocol_value_error;
}
// Compose the final datetime
datetime dt(d.year(), d.month(), d.day(), hours.value, minutes.value, seconds.value, micros.value);
output = field_view(dt);
return deserialize_errc::ok;
}
inline deserialize_errc deserialize_binary_field_time(deserialization_context& ctx, field_view& output)
{
using namespace boost::mysql::detail;
using namespace boost::mysql::detail::binc;
// Deserialize length
int1 length{};
auto err = length.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
// If the TIME contains no value for these fields, they are zero
int1 is_negative{};
int4 num_days{};
int1 hours{};
int1 minutes{};
int1 seconds{};
int4 microseconds{};
// Sign, days, hours, minutes, seconds
if (length.value >= time_dhms_sz)
{
err = ctx.deserialize(is_negative, num_days, hours, minutes, seconds);
if (err != deserialize_errc::ok)
return err;
}
// Microseconds
if (length.value >= time_dhmsu_sz)
{
err = microseconds.deserialize(ctx);
if (err != deserialize_errc::ok)
return err;
}
// Range check
constexpr std::size_t time_max_days = 34; // equivalent to the 839 hours, in the broken format
if (num_days.value > time_max_days || hours.value > max_hour || minutes.value > max_min ||
seconds.value > max_sec || microseconds.value > max_micro)
{
return deserialize_errc::protocol_value_error;
}
// Compose the final time
output = field_view(boost::mysql::time(
(is_negative.value ? -1 : 1) *
(days(num_days.value) + std::chrono::hours(hours.value) + std::chrono::minutes(minutes.value) +
std::chrono::seconds(seconds.value) + std::chrono::microseconds(microseconds.value))
));
return deserialize_errc::ok;
}
//
// Serialization
//
template <class T>
inline void serialize_binary_float(serialization_context& ctx, T input)
{
std::array<std::uint8_t, sizeof(T)> buffer{};
boost::endian::endian_store<T, sizeof(T), boost::endian::order::little>(buffer.data(), input);
ctx.add(buffer);
}
inline void serialize_binary_date(serialization_context& ctx, const date& input)
{
ctx.serialize(
int1{static_cast<std::uint8_t>(binc::date_sz)},
int2{input.year()},
int1{input.month()},
int1{input.day()}
);
}
inline void serialize_binary_datetime(serialization_context& ctx, const datetime& input)
{
ctx.serialize(
int1{static_cast<std::uint8_t>(binc::datetime_dhmsu_sz)},
int2{input.year()},
int1{input.month()},
int1{input.day()},
int1{input.hour()},
int1{input.minute()},
int1{input.second()},
int4{input.microsecond()}
);
}
inline void serialize_binary_time(serialization_context& ctx, const boost::mysql::time& input)
{
using namespace binc;
using boost::mysql::days;
using std::chrono::duration_cast;
using std::chrono::hours;
using std::chrono::microseconds;
using std::chrono::minutes;
using std::chrono::seconds;
// Break time
auto num_micros = duration_cast<microseconds>(input % seconds(1));
auto num_secs = duration_cast<seconds>(input % minutes(1) - num_micros);
auto num_mins = duration_cast<minutes>(input % hours(1) - num_secs);
auto num_hours = duration_cast<hours>(input % days(1) - num_mins);
auto num_days = duration_cast<days>(input - num_hours);
auto is_negative = (input.count() < 0) ? 1 : 0;
// Serialize
ctx.serialize(
int1{static_cast<std::uint8_t>(time_dhmsu_sz)},
int1{static_cast<std::uint8_t>(is_negative)},
int4{static_cast<std::uint32_t>(std::abs(num_days.count()))},
int1{static_cast<std::uint8_t>(std::abs(num_hours.count()))},
int1{static_cast<std::uint8_t>(std::abs(num_mins.count()))},
int1{static_cast<std::uint8_t>(std::abs(num_secs.count()))},
int4{static_cast<std::uint32_t>(std::abs(num_micros.count()))}
);
}
} // namespace detail
} // namespace mysql
} // namespace boost
boost::mysql::detail::deserialize_errc boost::mysql::detail::deserialize_binary_field(
deserialization_context& ctx,
const metadata& meta,
field_view& output
)
{
switch (meta.type())
{
case column_type::tinyint:
return deserialize_binary_field_int<std::uint8_t, std::int8_t>(meta, ctx, output);
case column_type::smallint:
case column_type::year:
return deserialize_binary_field_int<std::uint16_t, std::int16_t>(meta, ctx, output);
case column_type::mediumint:
case column_type::int_:
return deserialize_binary_field_int<std::uint32_t, std::int32_t>(meta, ctx, output);
case column_type::bigint:
return deserialize_binary_field_int<std::uint64_t, std::int64_t>(meta, ctx, output);
case column_type::bit: return deserialize_binary_field_bit(ctx, output);
case column_type::float_: return deserialize_binary_field_float<float>(ctx, output);
case column_type::double_: return deserialize_binary_field_float<double>(ctx, output);
case column_type::timestamp:
case column_type::datetime: return deserialize_binary_field_datetime(ctx, output);
case column_type::date: return deserialize_binary_field_date(ctx, output);
case column_type::time: return deserialize_binary_field_time(ctx, output);
// True string types
case column_type::char_:
case column_type::varchar:
case column_type::text:
case column_type::enum_:
case column_type::set:
case column_type::decimal:
case column_type::json: return deserialize_binary_field_string(ctx, output, false);
// Blobs and anything else
case column_type::binary:
case column_type::varbinary:
case column_type::blob:
case column_type::geometry:
default: return deserialize_binary_field_string(ctx, output, true);
}
}
void boost::mysql::detail::serialize_binary_field(serialization_context& ctx, field_view input)
{
switch (input.kind())
{
case field_kind::null: break;
case field_kind::int64: sint8{input.get_int64()}.serialize(ctx); break;
case field_kind::uint64: int8{input.get_uint64()}.serialize(ctx); break;
case field_kind::string: string_lenenc{input.get_string()}.serialize_checked(ctx); break;
case field_kind::blob: string_lenenc{to_string(input.get_blob())}.serialize_checked(ctx); break;
case field_kind::float_: serialize_binary_float(ctx, input.get_float()); break;
case field_kind::double_: serialize_binary_float(ctx, input.get_double()); break;
case field_kind::date: serialize_binary_date(ctx, input.get_date()); break;
case field_kind::datetime: serialize_binary_datetime(ctx, input.get_datetime()); break;
case field_kind::time: serialize_binary_time(ctx, input.get_time()); break;
default: BOOST_ASSERT(false); break;
}
}
#endif /* INCLUDE_BOOST_MYSQL_DETAIL_PROTOCOL_BINARY_DESERIALIZATION_HPP_ */
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